Hemidesmosomes, cell-matrix connector devices, are used by oral epithelial to attach to the connective tissue of the gingiva as well as the tooth surface. In the cytoplasm of an oral epithelial cell hemidesmosomes are also sites of cytoskeleton anchorage to the cell surface. During the course of periodontal disease, there is, of necessity, modulation in hemidesmosome integrity as epithelial cells migrate along the tooth to form the """"""""long junctional epithelium"""""""". Before we can study the role of hemidesmosomes in the pathogenesis of periodontal disease we must have a basic understanding of the molecular components involved in both the assembly and structural maintenance of this complex morphological entity. To this end, in Project 1 of this program project application, we plan to focus our efforts on functional analyses of an adhesive extracellular glycoprotein component of hemidesmosomes called laminin-5 and its impact on oral epithelial cells.
In Aim I we address the identification of domains of the laminin-5 heterotrimer involved in nucleation of hemidesmosome assembly. This will involve preparation of recombinant laminin-5 proteins as well as laminin-5 peptides.
In Aim 2, these recombinant proteins and peptides will be assayed for their ability a) to induce rapid adhesion of oral epithelial cells and b) to nucleate assembly of hemidesmosomes. As alternative strategies for identification of functional important domains of laminin-5, in Aim 2 we will use peptides to compete the adhesive properties of intact laminin-5.
In Aim 3, we wish to identify the substrate binding site(s) of laminin-5. To this end, proteolytic fragments of laminin-5 will be assayed for a) their ability to adhere to surfaces and/or b) to compete with native laminin-5 for substrate binding. Functionally active fragments will be further characterized by microsequencing.
In Aim 4, the impact of cell binding to laminin- 5 on hemidesmosome components will be assayed biochemically. We are particularly interested in the possibility that laminin-5 plays a role in matrix-cell signaling via phosphorylation events. Finally, in Aim 5, we wish to identify membrane interactions of laminin-5. This linkage is necessary for the stabilization of the oral epithelium on the tooth surface.

Project Start
1998-06-01
Project End
1999-05-31
Budget Start
1997-10-01
Budget End
1998-09-30
Support Year
2
Fiscal Year
1998
Total Cost
Indirect Cost
Name
Northwestern University at Chicago
Department
Type
DUNS #
005436803
City
Chicago
State
IL
Country
United States
Zip Code
60611
Godsel, Lisa M; Hobbs, Ryan P; Green, Kathleen J (2008) Intermediate filament assembly: dynamics to disease. Trends Cell Biol 18:28-37
Dusek, Rachel L; Godsel, Lisa M; Green, Kathleen J (2007) Discriminating roles of desmosomal cadherins: beyond desmosomal adhesion. J Dermatol Sci 45:7-21
Green, Kathleen J; Simpson, Cory L (2007) Desmosomes: new perspectives on a classic. J Invest Dermatol 127:2499-515
Dusek, Rachel L; Getsios, Spiro; Chen, Feng et al. (2006) The differentiation-dependent desmosomal cadherin desmoglein 1 is a novel caspase-3 target that regulates apoptosis in keratinocytes. J Biol Chem 281:3614-24
Ghosh, Supurna; Johnson, Jeff J; Sen, Ratna et al. (2006) Functional relevance of urinary-type plasminogen activator receptor-alpha3beta1 integrin association in proteinase regulatory pathways. J Biol Chem 281:13021-9
Munshi, H G; Stack, M S (2006) Reciprocal interactions between adhesion receptor signaling and MMP regulation. Cancer Metastasis Rev 25:45-56
Natarajan, Easwar; Omobono 2nd, John D; Guo, Zongyou et al. (2006) A keratinocyte hypermotility/growth-arrest response involving laminin 5 and p16INK4A activated in wound healing and senescence. Am J Pathol 168:1821-37
Godsel, Lisa M; Hsieh, Sherry N; Amargo, Evangeline V et al. (2005) Desmoplakin assembly dynamics in four dimensions: multiple phases differentially regulated by intermediate filaments and actin. J Cell Biol 171:1045-59
Yin, Taofei; Getsios, Spiro; Caldelari, Reto et al. (2005) Plakoglobin suppresses keratinocyte motility through both cell-cell adhesion-dependent and -independent mechanisms. Proc Natl Acad Sci U S A 102:5420-5
Green, Kathleen J; Bohringer, Michael; Gocken, Todd et al. (2005) Intermediate filament associated proteins. Adv Protein Chem 70:143-202

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